Decoding linguistic information in the glottal airflow
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[1] J. Perkell,et al. Glottal airflow and transglottal air pressure measurements for male and female speakers in soft, normal, and loud voice. , 1988, The Journal of the Acoustical Society of America.
[2] David J. Broad,et al. The New Theories of Vocal Fold Vibration , 1979 .
[3] Lou Boves,et al. Automatic computation and comparison of dynamically varying voice source parameters , 1991, EUROSPEECH.
[4] Anders Löfqvist,et al. Influence of consonantal environment on voice source aerodynamics , 1992 .
[5] Lou Boves,et al. The influence of linguistic variations on the voice source characteristics , 1992, ICSLP.
[6] B. J. Bailey. Speech Science Primer: Physiology, Acoustics, and Perception of Speech , 1981 .
[7] Helmer Strik,et al. A dynamic programming algorithm for time-aligning and averaging physiological signals related to speech , 1991 .
[8] John Hart,et al. A Perceptual Study of Intonation , 1990 .
[9] J. Westbury. Enlargement of the supraglottal cavity and its relation to stop consonant voicing. , 1983, The Journal of the Acoustical Society of America.
[10] Albert van Katwijk,et al. Accentuation in Dutch: An experimental linguistic study , 1974 .
[11] Inger Karlsson. Voice source dynamics for female speakers , 1990, ICSLP.
[12] Bert Cranen. Interpretation of EGG and glottal flow by means of a parametrical glottal geometry model , 1990, ICSLP.
[13] T. Shipp,et al. Predicting vocal frequency from selected physiologic measures. , 1979, The Journal of the Acoustical Society of America.
[14] John E. Markel,et al. Linear Prediction of Speech , 1976, Communication and Cybernetics.
[15] A. Gray,et al. Least squares glottal inverse filtering from the acoustic speech waveform , 1979 .
[16] A. House,et al. The Influence of Consonant Environment upon the Secondary Acoustical Characteristics of Vowels , 1953 .
[17] William A. Ainsworth,et al. A study of the variation of glottal pulse shape with fundamental frequency by inverse filtering of the speech wave , 1990 .
[18] N. Sedgwick,et al. A method for segmenting acoustic patterns, with applications to automatic speech recognition , 1977 .
[19] Lou Boves,et al. On the relation between voice source parameters and prosodic features in connected speech , 1992, Speech Commun..
[20] Gunnar Fant,et al. Truncation and superposition effects in voice production , 1982 .
[21] B. Yegnanarayana,et al. Epoch extraction from linear prediction residual for identification of closed glottis interval , 1979 .
[22] D. Fry. Experiments in the Perception of Stress , 1958 .
[23] I. Titze. Phonation threshold pressure: a missing link in glottal aerodynamics. , 1991, The Journal of the Acoustical Society of America.
[24] Paul Dalsgaard,et al. Multi-lingual acoustic-phonetic features for a number of european languages , 1991, EUROSPEECH.
[25] Paavo Alku,et al. Glottal wave analysis with Pitch Synchronous Iterative Adaptive Inverse Filtering , 1991, Speech Commun..
[26] C. Gobl. Voice source dynamics in connected speech , 1988 .
[27] D. Childers,et al. Two-channel speech analysis , 1986, IEEE Trans. Acoust. Speech Signal Process..
[28] Joseph S. Perkell,et al. Glottal airflow and transglottal air pressure measurements for male and female speakers in low, normal, and high pitch , 1989 .
[29] H. Strik. Physiological control and behaviour of the voice source in the production of prosody , 1994 .
[30] Lou Boves,et al. Robust ARMA analysis for accurate determination of system parameters of the voice source and vocal tract , 1989, EUROSPEECH.
[31] L. Boves,et al. On subglottal formant analysis. , 1987, The Journal of the Acoustical Society of America.
[32] D. V. Bergem,et al. MARKOV MODELS AND THEIR APPLICATION IN SPEECH RECOGNITION , 1989 .
[33] S. Niimi,et al. Control of fundamental frequency, intensity, and register of phonation , 1975 .
[34] K. Stevens. Physics of Laryngeal Behavior and Larynx Modes , 1977, Phonetica.
[35] L.W.J. Boves,et al. Control of fundamental frequency, intensity and voice quality in speech , 1992 .
[36] Pétursson Magnús. Timing of glottal events in the production of aspiration after [s] , 1977 .
[37] Carlos Gussenhoven,et al. Voiced fricatives in Dutch : sources and present-day usage , 1983 .
[38] Ian Maddieson,et al. Patterns of sounds , 1986 .
[39] James L. Flanagan,et al. Direct determination of vocal‐tract wall impedance , 1974 .
[40] Kenneth N. Stevens,et al. Models for the production and acoustics of stop consonants , 1993, Speech Commun..
[41] Lou Boves,et al. Comparing methods for automatic extraction of voice source parameters from continuous speech , 1992, ICSLP.
[42] Hans-Georg Boenninghaus,et al. Hals-Nasen-Ohrenheilkunde für Medizinstudenten , 1972 .
[43] Jacques Koreman,et al. (Semi‐)automatic pitch‐synchronous computation of glottal flow , 1989 .
[44] Ailbhe Ní Chasaide,et al. Linguistic and paralinguistic variation in the voice source , 1990, ICSLP.
[45] G. E. Peterson,et al. Control Methods Used in a Study of the Vowels , 1951 .
[46] J Sundberg,et al. A STUDY OF THE EFFECTS OF SUBGLOTTAL PRESSURE , FUNDAMENTAL FREQUENCY AND MODE OF PHONATION ON THE VOICE SOURCE , 2007 .
[47] T. V. Ananthapadmanabha,et al. Calculation of true glottal flow and its components , 1982, Speech Commun..
[48] K. Stevens,et al. Effects of a vocal-tract constriction on the glottal source: experimental and modelling studies , 1986 .
[49] L.I.J. Cranen,et al. The acoustic impedance of the glottis: measurements and modeling , 1987 .
[50] I. Titze,et al. Voice simulation with a body-cover model of the vocal folds. , 1995, The Journal of the Acoustical Society of America.
[51] C. Gussenhoven. Adequacy in Intonation Analysis: The Case of Dutch , 1988 .
[52] I R Titze,et al. On the relation between subglottal pressure and fundamental frequency in phonation. , 1989, The Journal of the Acoustical Society of America.
[53] P. Doornenbal,et al. On the Air Resistance and the Bernoulli Effect of the Human Larynx , 1957 .
[54] G R Farley. A quantitative model of voice F0 control. , 1994, The Journal of the Acoustical Society of America.
[55] S. Hertegård,et al. Physiological correlates of the inverse filtered flow waveform , 1992 .
[56] Kai-Fu Lee. Hidden Markov models: past, present, and future , 1989, EUROSPEECH.
[57] Lou Boves,et al. Extraction of control parameters for the voice source in a text-to-speech system , 1990, International Conference on Acoustics, Speech, and Signal Processing.
[58] John Laver,et al. Principles of Phonetics: Principles of transcription , 1994 .
[59] F. Bell-Berti. Control of pharyngeal cavity size for English voiced and voiceless stops. , 1975, The Journal of the Acoustical Society of America.
[60] William A. Ainsworth,et al. Evaluation of a glottal ARMA modelling scheme , 1989, EUROSPEECH.
[61] Christer Gobl,et al. Voice source rules for text-to-speech synthesis , 1989, International Conference on Acoustics, Speech, and Signal Processing,.
[62] J. Ohala,et al. Phonetic Explanations for the Development of Tones , 1979 .
[63] M. Rothenberg,et al. Interpolating subglottal pressure from oral pressure. , 1982, The Journal of speech and hearing disorders.
[64] Wendy J. Holmes,et al. Speech Synthesis and Recognition , 1988 .
[65] B.-H. Juang,et al. On the hidden Markov model and dynamic time warping for speech recognition — A unified view , 1984, AT&T Bell Laboratories Technical Journal.
[66] D. Fry. Duration and Intensity as Physical Correlates of Linguistic Stress , 1954 .
[67] Rolf Carlson,et al. Experiments with voice modelling in speech synthesis , 1991, Speech Commun..
[68] D. Klatt,et al. Analysis, synthesis, and perception of voice quality variations among female and male talkers. , 1990, The Journal of the Acoustical Society of America.
[69] H. Strube. Determination of the instant of glottal closure from the speech wave. , 1974, The Journal of the Acoustical Society of America.
[70] J. Flanagan,et al. Synthesis of voiced sounds from a two-mass model of the vocal cords , 1972 .
[71] S. Zahorian,et al. Nonlinear inverse filtering technique for estimating the glottal-area waveform. , 1977, The Journal of the Acoustical Society of America.
[72] Gunnar Fant,et al. Acoustic Theory Of Speech Production , 1960 .
[73] T. Shipp,et al. Laryngeal dynamics associated with voice frequency change. , 1971, Journal of speech and hearing research.
[74] Louis Goldstein,et al. Towards an articulatory phonology , 1986, Phonology.
[75] P. Lieberman. Some Acoustic Correlates of Word Stress in American English , 1959 .
[76] J. Atkinson. Correlation analysis of the physiological factors controlling fundamental voice frequency. , 1978, The Journal of the Acoustical Society of America.
[77] Hiroya Fujisaki,et al. Estimation of voice source and vocal tract parameters based on ARMA analysis and a model for the Glottal source waveform , 1987, ICASSP '87. IEEE International Conference on Acoustics, Speech, and Signal Processing.
[78] J. Flanagan. Speech Analysis, Synthesis and Perception , 1971 .
[79] J. Schroeter,et al. Modelling a leaky glottis , 1994 .
[80] Peter Ladefoged,et al. Three areas of experimental phonetics : stress and respiratory activity, the nature of vowel quality, units in the perception and production of speech , 1967 .
[81] Saito,et al. Fundamentals of Speech Signal Processing , 1986 .
[82] I. Titze. The physics of small-amplitude oscillation of the vocal folds. , 1988, The Journal of the Acoustical Society of America.
[83] I. Titze,et al. A theoretical study of the effects of various laryngeal configurations on the acoustics of phonation. , 1979, The Journal of the Acoustical Society of America.
[84] L. Lisker. “Voicing” in English: A Catalogue of Acoustic Features Signaling /b/ Versus /p/ in Trochees , 1986, Language and speech.
[85] G Fant,et al. The Relations between Area Functions and the Acoustic Signal , 1980, Phonetica.
[86] R. Collier. Physiological, correlates of intonation patterns. , 1975, The Journal of the Acoustical Society of America.
[87] J. Laver. The phonetic description of voice quality , 1980 .
[88] Lou Boves,et al. Evaluation of glottal inverse filtering by means of physiological registrations , 1982, ICASSP.